Super resolution imaging sensor

Inactive Publication Date: 2011-07-14
TREX ENTERPRISES CORP
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Benefits of technology

[0003]The present invention a system and process for converting a series of short-exposure, small-FOV zoom images to pristine, high-resolution images, of a face, license plate, or other targets of interest, within a fraction of a second. The invention takes advantage or the fact that some regions in a telescope field of view can be super-resolved; that is, features will appear in random regions which have resolution better than the diffraction limit of the telescope. This effect arises because the turbulent layer in th

Problems solved by technology

Each point on the object suffers different atmospheric dis

Method used

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example application

[0007]As an example of an application of the present invention, a 30 cm diameter gimbaled telescope mounted on a Predator-type UAV is viewing a scene, in this case shown as a small group of humans. The limiting optical resolution of the gimbal is λ / D=2 μrad, where λ=0.6 μm is the center of the visible spectral region. To achieve this image resolution, the angular pixel size must be 1 μrad, for Nyquist sampling, corresponding to a “zoom” FOV in high-res mode of 1 mrad. At range R=30 km, this corresponds to 6 cm resolution at FOV=3 m, not sufficient for detailed face feature recognition, but very close, and usable for a wide region of ISR observations. If the resolution could be doubled, the capabilities would increase enormously, since a human eye is about 1 inch wide, and a license plate numeral is about 2-3 inches. However, to achieve this resolution, even under optimal conditions, would require a >60 cm gimbal, which according to current size / weight requirements is untenable for P...

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Abstract

A system and process for converting a series of short-exposure, small-FOV zoom images to pristine, high-resolution images, of a face, license plate, or other targets of interest, within a fraction of a second. The invention takes advantage or the fact that some regions in a telescope field of view can be super-resolved; that is, features will appear in random regions which have resolution better than the diffraction limit of the telescope. This effect arises because the turbulent layer in the near-field of the object can act as a lens, focusing rays ordinarily outside the diffraction-limited cone into the distorted image. The physical effect often appears as magnified sub-regions of the image, as if one had held up a magnifying glass to a portion of the image. Applicants have experimentally shown these effects on short-range anisoplanatic imagery, along a horizontal path over the desert. In addition, they have developed powerful parallel processing software to overcome the warping and produce sharp images.

Description

FIELD OF THE INVENTION[0001]This invention relates to sensor and in particular to high resolution imaging sensors.BACKGROUND OF THE INVENTION[0002]Various techniques for increasing the resolution of through the atmosphere imaging systems without increasing the size of the aperture of the imaging system are well known. Several are discussed in the attached document. There is a desire for systems that can be utilized in an aircraft to image people at distances of in the range of 30 to 50 km. The theory and successful performance of image processing and adaptive optics methods is well known, for space surveillance, looking up through the atmosphere at long range. In this case, the target acts essentially like a point source, the turbulence is in the far field of the target, and recovery of a single atmospherically induced wavefront suffices to correct the image distortion (“isoplanatic imaging”). However, only in recent years has the theory of imaging larger objects embedded in strong ...

Claims

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Application Information

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IPC IPC(8): H04N7/18G06K9/40
CPCH04N5/232G06T3/4053
Inventor SANDLER, DAVIDBELENKII, MIKHAILBARRETT, TODD
Owner TREX ENTERPRISES CORP
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